Patent application number | Description | Published |
20090201331 | PRINTING METHOD, PRINTING SYSTEM AND METH0D FOR DETERMINING CORRECTION VALUE - A medium is carried to a predetermined position in a carrying direction. A first pattern is formed on the medium with nozzles on the carrying direction upstream side of a nozzle row constituted by a plurality of nozzles lined up at predetermined intervals. After forming the first pattern, the medium is carried in the carrying direction by a target carry amount that is shorter than the length in the carrying direction of the nozzle row. Along with forming on the medium a second pattern that forms a boundary with the first pattern with nozzles on the carrying direction downstream side of the nozzle row, a third pattern is formed on the medium with the nozzles on the carrying direction upstream side of the nozzle row. After forming the second pattern, the medium is carried in the carrying direction by a target carry amount that is shorter than the length in the carrying direction of the nozzle row so that a carry amount of the medium after forming the first pattern is longer than the length in the carrying direction of the nozzle row. A fourth pattern that forms a boundary with the third pattern is formed on the medium with the nozzles on the carrying direction downstream side of the nozzle row. | 08-13-2009 |
20100157342 | METHOD FOR MEASURING DENSITY, PRINTING METHOD, METHOD OF CALCULATING CORRECTION VALUE, METHOD OF MANUFACTURING PRINTING APPARATUS AND METHOD FOR OBTAINING CORRECTION VALUE - A method for measuring density, includes: forming on a medium a pattern that consists of a plurality of dot rows formed respectively in a plurality of row regions lined up in a direction intersecting a movement direction in which a plurality of nozzles move, by forming each of the dot rows in the row region arranged in the movement direction by ejecting ink from the nozzles; reading the pattern by a scanner; measuring density of each of the row regions of the read pattern; calculating respective modification values corresponding to each of the row regions, based on at least a part of a measurement result of the density of the plurality of the row regions; and modifying respective measured values of the density of each of the row regions based on the respective modification values corresponding to each of the row regions. | 06-24-2010 |
20100201733 | PRINTING METHOD, STORAGE MEDIUM, MEDIUM, PRINTING APPARATUS, METHOD FOR DETECTING END OF IMAGE, METHOD FOR DETECTING CARRYING UNEVENNESS OF MEDIUM, AND DEVICE FOR DETECTING CARRYING UNEVENNESS OF MEDIUM - A printing method according to the present invention includes carrying a medium, and printing, using a nozzle for ejecting ink, a plurality of images each having a section to be detected for detecting an inclination of the image with respect to the carried medium. | 08-12-2010 |
20100289842 | PRINTING METHOD, PRINTING SYSTEM AND METHOD FOR DETERMINING CORRECTION VALUE - A medium is carried to a predetermined position in a carrying direction. A first pattern is formed on the medium with nozzles on the carrying direction upstream side of a nozzle row constituted by a plurality of nozzles lined up at predetermined intervals. After forming the first pattern, the medium is carried in the carrying direction by a target carry amount that is shorter than the length in the carrying direction of the nozzle row. Along with forming on the medium a second pattern that forms a boundary with the first pattern with nozzles on the carrying direction downstream side of the nozzle row, a third pattern is formed on the medium with the nozzles on the carrying direction upstream side of the nozzle row. After forming the second pattern, the medium is carried in the carrying direction by a target carry amount that is shorter than the length in the carrying direction of the nozzle row so that a carry amount of the medium after forming the first pattern is longer than the length in the carrying direction of the nozzle row. A fourth pattern that forms a boundary with the third pattern is formed on the medium with the nozzles on the carrying direction downstream side of the nozzle row. | 11-18-2010 |
Patent application number | Description | Published |
20130307896 | LIQUID EMISSION APPARATUS AND METHOD FOR LIQUID EMISSION - A liquid emission apparatus having a head provided with a plurality of nozzles which each emits liquid, the liquid emission apparatus being configured to emit liquid from the nozzles by applying a driving signal to the driver elements, the liquid emission apparatus being configured to apply the driving signal to the driver elements so as to obtain a plurality of detected signals, to decide whether one of the nozzles corresponding to one of the driver elements is causing a malfunction in liquid emission on the basis of one of detected signals, to drive the driver element corresponding to the nozzle again upon the nozzle having caused a malfunction in liquid emission, and to omit to drive the driver element corresponding to the nozzle upon the nozzle having caused no malfunction in liquid emission. | 11-21-2013 |
20140267480 | PRINTING APPARATUS AND NOZZLE TESTING METHOD - A printing apparatus includes a head unit and a control section. The head unit includes nozzles, pressure chambers, and piezoelectric elements. The control section is configured to determine whether or not there is a liquid discharge failure in the nozzles corresponding to the piezoelectric elements based on a detection signal obtained by applying a testing waveform included in a driving signal to the piezoelectric elements. The control section is further configured to detect residual vibration using a first testing waveform in a first print mode performed at a first print speed, and to detect residual vibration using a second testing waveform in a second print mode performed at a second print speed with the first print speed being slower than the second print speed, a period of time for testing with the first testing waveform being longer than a period of time for testing with the second testing waveform. | 09-18-2014 |
20150054876 | LIQUID DISCHARGING APPARATUS - An ink jet printer is provided with a piezoelectric element which is provided corresponding to a pressure chamber in order to discharge liquid droplets, a driving signal generating section which generates a driving signal, a residual vibration detecting section which detects changes in an electromotive force of the piezoelectric element in accordance with the residual vibration inside the pressure chamber which occur after the driving signal is applied, a first switch which switches whether or not a driving signal is applied to the piezoelectric element, and a second switch which switches whether or not a change in the electromotive force is supplied to a first high-pass filter, where the second switch and the residual vibration detecting section are connected via a first capacitor of the first high-pass filter. | 02-26-2015 |